通过改进栅极堆表面制备，在si钝化Ge nfinfet中实现了创纪录的GmSAT/SSSAT和PBTI可靠性

2019 Symposium on VLSI Technology Pub Date : 2019-06-09 DOI:10.23919/VLSIT.2019.8776535

H. Arimura, D. Cott, G. Boccardi, R. Loo, K. Wostyn, S. Brus, E. Capogreco, A. Opdebeeck, L. Witters, T. Conard, S. Suhard, D. V. van Dorp, K. Kenis, L. Ragnarsson, J. Mitard, F. Holsteyns, V. De Heyn, D. Mocuta, N. Collaert, N. Horiguchi

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引用次数: 8

摘要

我们通过改进RMG高k末制程，展示了具有创纪录高$\text{G}_{\text{mSA}\Gamma}/\text{SS}_{\text{SAT}}$和PBTI可靠性的Ge nfinfet。SiO2虚拟栅氧化物(DGO)的沉积和去除过程被认为是提高电子迁移率和PBTI可靠性的关键，即使是在名义上相同的si钝化Ge栅堆上。在DGO沉积过程中，锗通道的表面氧化被认为会影响最终的栅堆。通过抑制Ge通道表面氧化，可以获得随翅片宽度减小而增加的迁移率，而通过扩展DGO原位清洁工艺可以提高PBTI可靠性、扩展后翅片的$\text{D}_{\text{IT}}$以及高场迁移率，在73 nm Lg处获得了$\text{Gm}_{\text{SAT}}/\text{SS}_{\text{SAT}}$ 5.4的记录。

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A record GmSAT/SSSAT and PBTI reliability in Si-passivated Ge nFinFETs by improved gate stack surface preparation

We have demonstrated Ge nFinFETs with a record high $\text{G}_{\text{mSA}\Gamma}/\text{SS}_{\text{SAT}}$ and PBTI reliability by improving the RMG high-k last process. The SiO2 dummy gate oxide (DGO) deposition and removal processes have been identified as knobs to improve electron mobility and PBTI reliability even with a nominally identical Si-passivated Ge gate stack. Surface oxidation of Ge channel during the DGO deposition is considered to impact the final gate stack. By suppressing the Ge channel surface oxidation, increasing mobility with decreasing fin width is obtained, whereas PBTI reliability, $\text{D}_{\text{IT}}$ of scaled fin as well as high-field mobility are improved by extending the DGO in-situ clean process, resulting in the record $\text{Gm}_{\text{SAT}}/\text{SS}_{\text{SAT}}$ of 5.4 at 73 nm Lg.

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2019 Symposium on VLSI Technology

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